JP2011092897A - High performance labyrinth type air treatment apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a high performance labyrinth type air treatment apparatus constituted so as to enhance the dust collection effect of a dust collection unit by changing an air flowing direction. <P>SOLUTION: The high performance labyrinth type air treatment apparatus is constituted by installing a dust collection unit 2 in the duct 12 of the shell body 11 of an air treatment apparatus 1, and the dust collection unit 2 is constituted of one or more alternately arranged negatively (positively) charged dust collection plates 21 corresponding to each other. An air flow passage 22 is formed in the dust collection unit 2 so as to half close a labyrinth, and the discharge emitting end (wire) 31 of an air ionizing generator and a fan 4 are provided in the duct 12 of the air treatment apparatus 1. The air sucked by the fan 4 passes a vicinity of the discharge emitting end (wire) 31 of the air ionizing generator to be ionized, the foreign matter particles in the air are negatively (positively) charged, the negatively (positively) charged foreign matters in the air advance into the labyrinth type air flow passage 22 in the dust collection unit 2 to detour in the same to thereby collide with the negatively (positively) charged dust collection plates 21. By this constitution, the foreign matter particles in the air are disturbed in a normal flow state. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a high-efficiency labyrinth type air treatment device, and in particular, a dust collection unit is installed in a duct of an air treatment device shell, and the dust collection units correspond to each other and are alternately arranged at least one plus ( (Minus) Consists of a dust collector plate that is charged with electricity, forms a maze-like air flow path in the dust collection unit, and discharge discharge end (line) of the air ionization generator in the duct of the air treatment device The fan is installed and the principle of inertia of the substance is used, and the air flow generated by the fan removes foreign particles in the air charged with minus (plus) electricity. It is drawn into the inner wall of the duct formed by the dust collection unit, and the positive (minus) electricity inside the duct is totally collided with the dust collection plate, thus foreign particles in the air that already carry minus (plus) electricity. In the flow process As the airflow direction changes, it collides with the dust collector plate many times and is adsorbed by the dust collector plate with positive (minus) electricity, and finally, it has a very good air cleaning effect at the outlet position. The present invention relates to a high-efficiency labyrinth type air treatment device.

Industrial commerce is rapidly developing, and industrial production and commercial activities are being carried out in large quantities and actively. In the modern era, exhaust from transportation facilities such as factories and automobiles causes pollution problems, which are serious to people's health. It has an influence.
Currently, air pollution is serious, and air near the ground, table surface, and table surface contains a large amount of dust and fine particles from automobile exhaust, as well as hair, fibers, and various harmful exhausts emitted by industrial production. Drifting.
These invisible presences are harmful and are highly concentrated.
Moreover, in the windless state, these harmful substances are subjected to the action of gravity (the attractive force of the earth) and fall to the ground, the table surface, the table surface position, or float in large quantities at a high concentration.
Thus, in general, the concentration of contaminants near the ground and table surface is the highest.
The flow of air generated when a person moves, or the natural wind from the outside world, falls on the ground, table surface, and table surface and rolls up harmful substances that have accumulated. Inhalation is the cause of various diseases.

Therefore, an air purifier that cleans the air has been developed.
The conventional electrostatic dust collecting plate design of an air cleaner is to install one (sheet) or several (sheet) positive (minus) dust collecting pieces in the body (outside).
As a result, an adsorbing action is generated on foreign matter in the air charged with minus electricity passing through the vicinity, thereby achieving the function of air filtration.
However, the dust collector described above only adsorbs negative (positive) foreign matter in the airflow that is very close to the negative (positive) dust collector or is flowing very slowly. The effect can be exerted.

Furthermore, in the conventional air cleaner, the sucked air quickly passes through the straight air tunnel and is discharged from the air outlet.
Therefore, in many cases, there is a distance between the foreign particles in the negatively charged air and the positive (minus) dust collector, and the air flow rate is high and the speed is high. Since the foreign particles inside move in a straight line, some of the foreign particles in the air charged with minus (plus) electricity escape the plus (minus) electric suction force of the dust collector of plus (minus) electricity. Go away with the airflow.
Therefore, the filtration quality is not ideal.
Moreover, a filtering device using a general filter can filter only fine particles of 0.1 μm at the minimum.
Therefore, since various air purifiers currently on the market have a low filtering effect, it is often sufficient to clean the filter once every several months.
That is, this indicates that the filtration effect is low and the quality of air after filtration is not good.
The present invention has been made in view of the above-described drawbacks of conventional air treatment apparatuses.

  The problem to be solved by the present invention is to provide a high-efficiency labyrinth type air treatment device that improves the dust collection effect of the dust collection unit by changing the air flow direction.

In order to solve the above problems, the present invention provides the following high-efficiency labyrinth type air treatment device.
The high-efficiency labyrinth type air treatment device has a dust collection unit installed in a duct of the air treatment device shell, and the dust collection unit corresponds to each other and is alternately arranged at least one plus (minus). It is composed of a dust collecting plate with electricity, and a semi-blocked air flow path like a maze is formed in the dust collecting unit, and an air ionization generator is provided at the inlet of one end of the dust collecting unit. Install a discharge discharge end (wire), ionize the inhaled air, thus foreign particles in the air carry negative (plus) electricity,
A semi-enclosed positive dust collection unit designed to remove foreign particles in the air charged with minus (plus) electricity by the suction air flow generated by the fan using the principle of substance inertial motion. Pull into the inner wall of the air flow path to be formed, and make it collide with the dust collector plate with positive (minus) electricity inside,
Foreign particles in the air that have already been charged with negative electricity will collide with the dust collecting plate many times due to the change in the direction of air flow in the flow process, and dust collection with positive (minus) electricity will occur. Adsorbed on the plate to achieve a very good air cleaning effect,
In this way, the air is clean, can be used for breathing humans and animals, can be used in any area where the air is contaminated to maintain the health of the body and respiratory organs,
On one or both sides of the dust collector plate charged with each plus (minus) electricity, a spoiler equipped with airflow disturbance action is installed,
As a result, foreign matter in the air charged with negative (positive) electricity generates more turbulence when passing through the air flow path, and randomly collides with the dust collector plate charged with negative (plus) electricity. Can expand opportunities and times,
In this way, foreign particles in the air are adsorbed in a large amount by the dust collecting plate charged with the plus (minus) electricity in the flow process, and the dust collecting effect can be improved.

  The high-efficiency labyrinth type air treatment device of the present invention can greatly improve the dust collection effect of the dust collection unit by changing the air flow direction.

It is a three-dimensional exploded view of the first embodiment of the present invention. It is local sectional drawing which shows the combination state of this invention. In the first embodiment of the present invention, it is a local cross-sectional view showing a state in which the discharge discharge end (line) of the minus (plus) ion generator is installed in the air flow path. It is a three-dimensional exploded view of the second embodiment of the present invention. It is local sectional drawing of 2nd Example of this invention. In the second embodiment of the present invention, it is a local cross-sectional view showing a state in which the discharge firing end (line) of the minus ion generator is installed in the air flow path.

  The best mode for carrying out the present invention will be described in detail below with reference to the drawings.

As shown in FIGS. 1 and 2, the high-efficiency labyrinth type air treatment device of the present invention has a dust collection unit 2 installed in a duct 12 of an air treatment device 1 shell 11.
The dust collection unit 2 includes at least one dust collection plate 21 corresponding to each other and alternately arranged.
An air flow path 22 is formed in the dust collection unit 2 such that the maze is half closed.
A discharge discharge end (line) 31 of the air ionization generator and a fan 4 are installed at the air inlet 23 at one end of the dust collection unit 2.
The air ionization generator includes a minus (plus) ion generator, a plus (minus) electrostatic high voltage discharger, and the like. In this embodiment, the minus (plus) ion generator 3 is taken as an example.
In this embodiment, a discharge discharge end (line) 31 of a minus ion generator 3 is installed at the inlet 23 at one end of the dust collection unit 2, and a fan 4 is installed at the opposite end of the dust collection unit 2. To do.
The suction air flow generated by the fan 4 guides foreign particles in the air charged with minus electricity.
The leading point is the inner wall of the air flow path 22 formed by the semi-enclosed, positive (negative) dust collecting unit 2 that is designed and can change the direction of the air flow, and has positive (minus) electricity. The foreign particles in the air collide with the dust collecting plate 21 charged with positive (minus) electricity inside.
Thus, the foreign particles in the air collide with the dust collecting plate 21 charged with plus (minus) electricity many times due to the change of the air flow direction in the flow process, and the plus (minus) electricity has a very high probability. It is adsorbed by the dust collecting plate 21 tinged with.
This achieves a very good air-cleaning effect, and the foreign particles in the air with negative (plus) electricity, the semi-enclosed air flow path 22 based on the design and the collection with positive (minus) electricity. The number of collisions with the dust plate 21 can be increased.
A spoiler 211 having a disturbing action of airflow is installed on one surface or both surfaces of each dust collecting plate 21 charged with plus (minus) electricity.
Thus, when foreign particles in the air charged with minus (plus) electricity pass through the air flow path 22, more turbulence is generated, and the number of collisions with the dust collecting plate 21 charged with plus (minus) electricity. Can be enlarged.
The foreign particles in the air charged with minus (plus) electricity are adsorbed in large quantities by the dust collecting plate 21 charged with plus (minus) electricity in the flow process, thereby achieving a very good air cleaning effect.
At the same time, the discharge firing end (line) 31 of the air ionization generator, the discharge launch end (line) 31 of the minus (plus) ion generator 3, or the discharge firing tungsten filament of the plus (minus) electrostatic high-pressure discharger Since it is installed in the flow path 22, the effect of ionizing air can be improved (see FIG. 3).

As shown in FIGS. 4 and 5, in the second embodiment of the present invention, a positive (minus) electric dust collection unit 5 is installed in the duct 12 of the shell 11 of the air treatment device 1.
The plus (minus) electricity dust collecting unit 5 is composed of at least one plus (minus) electricity dust collecting plate 51.
Further, a plurality of through holes 52 are sequentially installed on the left side and the right side of each positive (minus) electricity dust collecting plate 51.
In the positive (minus) electric dust collecting unit 5, an air flow path 54 of a type in which the maze is half closed is formed.
A small semi-enclosed space 541 is formed between each two positive (minus) electricity dust collecting plates 51.
On one side of the positive (minus) electric dust collection unit 5, a discharge discharge end (line) 31 of an air ionization generator is installed.
Here, the minus (plus) ion generator 3 (or plus (minus) electrostatic high voltage discharger) is taken as an example.
The suction airflow generated by the fan 4 to be installed guides foreign particles in the air charged with minus electricity.
The leading point is a plurality of through holes 52 of the first positive (minus) electricity dust collecting plate 51, and from here the inner wall of the semi-enclosed air flow path 54, foreign particles in the air charged with positive (minus) electricity Collides with the dust collecting plate 51 charged with plus (minus) electricity inside.
Thus, foreign particles in the air collide with the dust collecting plate 51 charged with plus (minus) electricity many times in the flow process, and are adsorbed by the dust collecting plate 51 charged with plus (minus) electricity.
This achieves a very good air cleaning effect.
Furthermore, dust particles with positive (minus) electricity are collected in a semi-enclosed system based on the design of foreign particles in the air with minus (plus) electricity, and in the air flow path 54 with plus (minus) electricity. The opportunity and frequency | count which collide with the board 51 at random can be increased.
A spoiler 53 having a turbulent action of airflow is installed on one side or both sides of each dust collecting plate 51 charged with plus (minus) electricity.
Thereby, when foreign particles in the air charged with minus (plus) electricity pass through the air flow path 54, more turbulence is generated, and randomly to the dust collecting plate 51 charged with plus (minus) electricity. The chance and number of collisions can be expanded.
At the same time, the discharge firing end (line) 31 of the air ionization generator, the discharge launch end (line) 31 of the minus (plus) ion generator 3, or the discharge firing tungsten filament of the plus (minus) electrostatic high-pressure discharger Although it is installed in the flow path 54, the main body of the minus ion generator 3 can be installed outside the duct 12 of the air treatment device 1, so that the effect of ionizing air can be improved (FIG. 6). reference).

The fan 4 installed in the duct 12 of the shell 11 of the air treatment device 1 shown in the present invention is merely an example, and the system for actually adsorbing and discharging air is various air treatment devices 1 or air treatment systems. Mainly designed and installed according to the equipment.
In addition, the negative electric dust collection units 2 and 5 can be installed in the duct 12 of the shell 11 such as various air treatment apparatuses 1 or air treatment systems as necessary.
In addition, depending on the world situation and the nature of the air at the place of use, to achieve the best effect and provide clean air to people, it is designed in a multi-layer system and several positive (minus) electric Dust collecting units 2 and 5 can be installed.

The apparatus of the present invention plus (minus) electric dust collection unit 2, 5 can be operated in a central air conditioning system of a large-scale building, and can be used in vehicles, ships, houses, churches, shopping malls, various shops, classrooms. It can also be used in places where people gather, such as factories and offices.
Furthermore, it can be designed into a small portable device, in which case it can be applied to use by firefighters, military, police, etc. to protect its respiratory and life.

  The above-mentioned names and contents of the present invention are only used for explaining the technical contents of the present invention, and do not limit the present invention. All equivalent applications or parts (structures) conversion, replacement and increase / decrease in quantity based on the spirit of the present invention shall be included in the protection scope of the present invention.

DESCRIPTION OF SYMBOLS 1 Air treatment apparatus 11 Shell 12 Duct 2, 5 Dust collection unit 21, 51 Dust collection plates 211, 53 Spoiler 22, 54 Air flow path 23 Air inlet 24 Air outlet 3 Ion generator 31 Discharge launch end (line)
52 Through-hole 541 Small semi-enclosed space 4 Fan

Claims (12)

A dust collection unit is installed in the duct of the air treatment device shell.
The dust collecting unit is composed of at least one dust collecting plate having positive (minus) electricity that is alternately arranged and alternately arranged, and the maze is half closed in the dust collecting unit. Form an air flow path like
In the duct of the air treatment device, a discharge discharge end (line) of an air ionization generator and a fan are installed,
Due to the suction air flow generated by the fan, foreign particles in the air charged with minus (plus) electricity are moved to the inner wall of the air flow path formed by the designed semi-enclosed type dust collecting unit with plus (minus) electricity. The foreign particles in the air with negative (positive) electricity, collide with the dust collector plate with positive (minus) electricity inside,
In this way, foreign particles in the air charged with negative (positive) electricity, due to the power generated by the air flow, cause a material inertial motion and a random diffusion motion of microparticles,
In the flow process, the airflow direction changes, so it collides with the dust collector plate with positive (minus) electricity many times and adsorbs to the dust collector plate with positive (minus) electricity with a very high probability. Thus, a high-efficiency labyrinth type air treatment device is characterized in that a very good air cleaning effect is achieved. On the surface of each dust collector plate charged with plus (minus) electricity, a spoiler equipped with a disturbing action of airflow is installed,
As a result, foreign particles in the air charged with minus (plus) electricity, dust collecting plate with plus (minus) electricity on the air flow path in the form that the maze formed in the dust collecting unit is half closed The random opportunities and times of clashing with
On one side or both sides of the dust collector plate charged with each plus (minus) electricity, a spoiler equipped with a disturbing action of airflow is installed,
As a result, foreign matter in the air charged with negative (positive) electricity generates more turbulence when passing through the air flow path, and randomly collides with the dust collector plate charged with positive (negative) electricity. Can expand opportunities and times,
2. The high-efficiency labyrinth type air treatment device according to claim 1, wherein the dust collection effect is thus improved.   The positive (minus) electric dust collection unit has several positive (minus) to achieve the best effect and provide clean air to people according to the world situation and the characteristics of the air at the place of use. The high-efficiency labyrinth type air treatment device according to claim 1, wherein an electric dust collecting unit can be installed.   The high-efficiency labyrinth type air treatment device according to claim 1, wherein the air ionization generator is a negative ion generator.   The high-efficiency labyrinth type air treatment device according to claim 1, wherein the air ionization generator is a plus (minus) electrostatic high voltage discharger.   The discharge discharge end (line) of the air ionization generator is installed in the air flow path, but the main body of the air ionization generator is installed outside the duct of the air treatment device to improve the effect of air ionization. The high-efficiency labyrinth type air treatment device according to claim 1, wherein The high-efficiency labyrinth type air treatment device has a positive (minus) electric dust collection unit installed in the duct of the air treatment device shell.
The positive (minus) electric dust collecting unit is composed of at least one positive (minus) electric dust collecting plate, and further, sequentially on the left side and the right side of each positive (minus) electric dust collecting plate. Install multiple through holes,
In the positive (minus) electricity dust collecting unit, an air flow path in the form of a half-closed maze is formed, and between each of the two positive (minus) electricity dust collecting plates, a small half A sealed space is formed, and on one side of the negative (plus) electricity, a discharge discharge end (line) of an air ionization generator is installed, and on the opposite end, a fan is installed,
Due to the suction air flow generated by the fan, foreign particles in the air charged with negative (plus) electricity are guided to the plurality of through holes of the first positive (minus) electricity dust collecting plate, from which the designed semi-enclosed type The foreign particles in the air with negative (plus) electricity entering the inner wall of the air flow path collide with the dust collector plate with positive (minus) electricity inside,
In this way, foreign particles in the air collide with the dust collector plate charged with positive (minus) electricity many times in the flow process, and are adsorbed by the dust collector plate charged with positive (minus) electricity. A high-efficiency labyrinth type air treatment device characterized by achieving a very good air cleaning effect. On the surface of each dust collector plate charged with plus (minus) electricity, a spoiler equipped with a disturbing action of airflow is installed,
As a result, foreign particles in the air charged with minus (plus) electricity, dust collecting plate with plus (minus) electricity on the air flow path in the form that the maze formed in the dust collecting unit is half closed The random opportunities and times of clashing with
On one side or both sides of the dust collector plate charged with each plus (minus) electricity, a spoiler equipped with a disturbing action of airflow is installed,
As a result, foreign matter in the air charged with negative (positive) electricity generates more turbulence when passing through the air flow path, and randomly collides with the dust collector plate charged with positive (negative) electricity. Can expand opportunities and times,
8. The high-efficiency labyrinth type air treatment device according to claim 7, wherein the dust collection effect is improved in this way.   The number of positive (negative) dust collecting plates in the positive (negative) dust collecting unit can be increased or decreased according to the world situation and the characteristics of the air at the place of use. The high-efficiency labyrinth type air treatment device according to claim 7.   The high-efficiency labyrinth type air treatment device according to claim 7, wherein the air ionization generator is a negative (positive) ion generator.   The high-efficiency labyrinth type air treatment device according to claim 7, wherein the air ionization generator is a plus (minus) electrostatic high voltage discharger.   The discharge discharge end (line) of the air ionization generator is installed in the air flow path, but the main body of the air ionization generator is installed outside the duct of the air treatment device to improve the effect of air ionization. The high-efficiency labyrinth type air treatment device according to claim 7, wherein

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